Breaking the grip JS has on the DOM: Difference between revisions

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(We don't want to do this anymore.)
 
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We care more about speed now. See {{bug|570738}}.
----
We want to change the grip JS has on the DOM and on XUL.  We will do this in 2 steps:
We want to change the grip JS has on the DOM and on XUL.  We will do this in 2 steps:


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* Create a Python implementation.
* Create a Python implementation.


Ideally, the first step could be done without consideration for the second, in the assumption at the implementation should be truly language neutralHowever, this first real implementation is likely to impact the design decisions made, so there will be some iteration involved
This work is currently being done on a DOM_AGNOSTIC2_BRANCH cvs branch (note the 2 in the branch name!)The initial work on this, including a Python implementation is largely complete.  This document attempts to capture the current state of this work, including any issues not yet addressed.
 
== Original specification - stage 1 ==
This is the high-level task list as specified at the start of the project:
 
* Extend nsScriptLoader using the XPCOM category manager to handle arbitrary <script type="...">
* MIME types, loading extension component mapped by MIME type through a category
* Abstract and multiplex nsIScriptContext, generalizing it (changing its IID of course) away from the JS API, making a nsIJavaScriptContext for JS and an nsIPythonContext for Python, fixing various places that assume nsIScriptContext "does JS"
* Fix default script language selection and event handlers, which are script-language-typed by the selected default, so that you can write Python event handlers.
 
== High-level design decisions ==
 
Decisions made/ratified by Brendan etc:
 
* No sharing of language namespaces.  Only the "global DOM namespace" (ie, the nsIScriptGlobalObject) will be shared.
 
== Identified task list ==


These are the tasks identified during the analysis and implementation phases of the project.
== Description of changes - both already made and yet to be made ==


=== Overview ===
=== Overview ===


The existing nsIScriptContext interface will remain tied to a specific language.  The "void *" params in its interface will remain.  This means that a "void *" and a suitable nsIScriptContext must always be treated as a pair (ie, given just a "void *", there is no way to determine an appropriate nsIScriptContext suitable for it - although "assume JS" is likely to remain for existing code that does exactly this)
A [[#new interface nsILanguageRuntime]] will be implemented for each language.  It is a singleton (JS will be manually instantiated, but all other languages will be services).  <tt>nsDOMScriptObjectFactory</tt> will become the factory for these <tt>nsILanguageRuntime</tt>s, with the language runtime taking responsibility for creating the <tt>nsIScriptContext</tt>.
 
   
nsIScriptContext will grow new methods relating to:
The existing <tt>nsIScriptContext</tt> interface will remain tied to a specific language.  The <tt>void *</tt> params in its interface will remain.  This means that a <tt>void *</tt> and a suitable <tt>nsIScriptContext</tt> must always be treated as a pair (ie, given just a <tt>void *</tt>, there is no way to determine an appropriate <tt>nsIScriptContext</tt> suitable for it.  See [[#nsIScriptContext]]
* language specific cleanup and "default language context" type codeFor example, nsGlobalWindow.cpp has a number of calls to ::JS_ClearScope/::JS_ClearWatchPointsForObject etc - these need to be hidden behind one of the interfaces.
* The "WrapNative" process.


The existing nsIScriptGlobalObject interface will move towards a model where there is a global script context per language.  GetGlobalJSObject and GetContext would be deprecated, with a new method allowing the desired language to be specified.
<tt>nsIProgrammingLanguage</tt> constants will internally identify a language offering an efficient array-based implementation for multiple languagesThe <tt>nsIDOMScriptObjectFactory</tt> will be able to convert language names to IDs and will be responsible for instantiating new language runtimes.


Some concept of a "language ID" will need to be invented. enum/char */atom?
The existing <tt>nsIScriptGlobalObject</tt> interface will move towards a model where there is a global <tt>nsIScriptContext</tt> per language.  <tt>GetGlobalJSObject</tt> and <tt>GetContext</tt> hav largely been replaced with <tt>GetLanguageGlobal</tt> and <tt>GetLanguageContext</tt> methods (hard-coding <tt>nsIProgrammingLanguage::JAVASCRIPT</tt>) where necessary.  Thus, <tt>nsIScriptGlobalObject</tt> may have many <tt>nsIScriptContext</tt>s associated with it (one per supported and initialized language).  The script global itself is responsible for preparing itself to work with a specific language, but will only do so via an explicit request to <tt>EnsureScriptEnvironment()</tt> for a language. See [[#nsIScriptGlobalObject and nsGlobalWindow]]


The 'context stack' will need to be enhanced to allow each language to have their own implementation for pushing and poping context.  Thus, when the DOM requires an item on or off the context stack, each language will be called once to do its own thing.
A new context stack may need to be invented - see [[#Context Stack]]


nsDOMClassInfo needs to be addressed - presumably its functionality is necessary for other languages - but it is heavily JS specific.
The special casing for js in <tt>nsDOMClassInfo</tt> will need a fair bit of work for each language - see [[#nsDOMClassInfo]]


Below are specific implementation notes:
Below are specific implementation notes:


=== nsIScriptContext ===
=== Array and Variant object model changes ===


* Existing JSObject replaced with void
* <tt>nsIArray</tt> to be used in place of <tt>jsval</tt> argc/argv used now.  There is a new <tt>nsJSArgArray</tt> object that "wraps" a <tt>jsval *argv/int argc</tt> pair into an <tt>nsIArray</tt> - but also support a private interface for getting the original <tt>jsval</tt> based array.  Thus, js->js calls do not convert elements in the array - (offering both performance and no conversion issues), but they are converted when <tt>nsIArray</tt> methods are directly used (eg, when another language sees the array).


* Need a "WrapNative" type function
* Each of these <tt>nsIArray</tt> elements params are expected to hold either an <tt>nsIVariant</tt> or an <tt>nsISupportsPrimitive</tt>.


* ExecuteScript - param 2 changes from "void *aScopeObject" to "nsIScriptGlobalObject *aScopeObject".  JS impl fetches underlying JSObject.
* Result values from calling scripts are now nsIVariant.  This is currently used only for the "return value" of an event handler, and only boolean and string result values are handledIf may be more efficient to convert this to use <tt>nsISupportsPrimitive</tt> (but xpconnect already provided <tt>nsIVariant</tt> converters).


* FinalizeClasses method - JS does the ClearScope/ClearWatchpointsForObject/ClearRegExpStatistics?
=== new interface nsILanguageRuntime ===


* Some kind of "SetProperty" function - as needed by nsGlobalWindow - "arguments", "navigator" etc.  http://lxr.mozilla.org/seamonkey/source/dom/src/base/nsGlobalWindow.cpp#871
This is a factory for nsIScriptContext objects and has methods for parsing "version strings" into a version integer specific to the language.


=== nsIScriptGlobalObject / nsGlobalWindow ===
nsJSEnvironment implements this interface and becomes the JS factory (and renamed to nsJSRuntime).  Public function for creating JSContext replaced with public function for the nsJSRuntime.


http://lxr.mozilla.org/seamonkey/source/dom/public/nsIScriptGlobalObject.h
All memory management/object ownership related functions will exist on the language runtime. This is so a language object can be locked or unlocked without having an nsIScriptContent - all it needs is the integer language ID so it can fetch the nsILanguageRuntime to perform the operation. Currently these are defined in terms of the JS GC API (and hence ignored by Python), but this will change to a more language neutral technique.


nsGlobalWindow is the main implemention of nsIScriptGlobalObject
=== nsIScriptContext ===


* nsIScriptGlobalObject probably needs to remain a single object (ie, not per language).  It will move towards keeping a list of "IScriptContext *ctx, void *global" items, one for each language.  New method:
* The ownership model of the <tt>void *</tt> objects returned from <tt>nsIScriptContext</tt> must be clarified and made more explicitMarkH is working on this.
  nsresult GetLanguageContext( [in] language_id language, [out] nsIScriptContext **retLangContext, [out]void **retLangGlobal);
mJSObject and mContext will both be dropped in favour of the list.  The concept of a single context/global will be deprecated - callers will be encouraged to use the new method.
GetContext()/GetGlobalJSObject() remain for b/w compatThey are equivilent to "GetLanguageContext('js', ...)"


* New method to set and get "properties" - nsGlobalWindow does this for JSSetting a property should presumably set it in all languages (via the global attached to the context).  Getting is tricker - what if the property is in a different language?  Or in multiple languages?
* Existing <tt>JSObject</tt> replaced with <tt>void</tt>JS implementation still returns a <tt>JSObject</tt>, but that implementation detail is hidden inside the script context itself.
** Properties set include "arguments" and "navigator".  Presumably other code also sets additional properties?
** Properties fetched seem arbitrary.


* "Arguments" will need to be specified in a language neutral way. Maybe array of nsVariants?
* Existing <tt>char *version</tt> replaced with <tt>PRUint32 version</tt>.  New method on <tt>nsILanguageRuntime</tt> to convert a <tt>char * version</tt> string into the flags.


* Serializing scripts?
* New <tt>ClearScope</tt> method - JS implementation does the <tt>ClearScope/ClearWatchpointsForObject/ClearRegExpStatistics</tt> dance.


* CompileScript:
* As described above, <tt>nsIArray</tt> and <tt>nsIVariant</tt> used to make language args and result values agnostic..
  nsXulElement.  Line 3666:
  // XXXbe violate nsIScriptContext layering because its version parameter
  // is mis-typed as const char *
  sets mJSObject


=== Context Stack ===
* <tt>CompileEventHandler</tt> now takes an array of arg names - this is because the <tt>onerror</tt> event takes 3 params.  <tt>nsContentUtils::GetEventArgName()</tt> renamed to <tt>GetEventArgNames()</tt> with params changed accordingly, and returns 3 names for 'onerror'.


Existing nsIJSContextStack "@mozilla.org/js/xpc/ContextStack;1" service is replaced with language generic ContextStackThis is almost identical to the JS version, but all functions accept a 'language_id' param, to indicate which language they are interested inExisting 'js' specific context stack could be re-implemented using the new one.
* A new <tt>SetProperty</tt> method has been added, currently used only to set <tt>window.arguments</tt>Note that <tt>BindCompiledEventHandler()</tt> changes make these 2 functions almost identical in concept, so these could possibly be mergedAlternatively, now we use <tt>nsIArray</tt> for window arguments, we could possibly add <tt>arguments</tt> as an XPCOM property on the DOM object itself, meaning <tt>SetProperty()</tt> could go away.


Probably need a new interface for each language to do their thing.  The DOM will simply ask for a new context - something must do the delegation to the languages.
* <tt>SetTerminationFunction</tt> needs thinking through - this does *not* seem to be a per-language thing, but is used only for JS GC, so that the script global is notified when the JS global object is collectedThis needs more thinking through, or possibly just moved privately inside the JS implementation.


What about http://lxr.mozilla.org/seamonkey/source/dom/public/nsIScriptContext.h#356 - it
* New method <tt>void *GetNativeGlobal()</tt> to return the "global object" used by <tt>nsIScriptGlobalWindow</tt> (previously stored in <tt>mJSObject</tt>) for this context<tt>nsIScriptGlobalObject</tt> calls this method during language init to setup its environment.
checks flagsWill there be flags for a single stack entry, or flags for each language in a single stack entry, or both?


::JS_GetContextPrivate ???
* New <tt>Serialize</tt> and <tt>Deserialize</tt> methods added with <tt>nsXULPrototypeScript</tt> delegating to these.


=== nsScriptLoader ===
=== nsIScriptGlobalObject and nsGlobalWindow ===


* nsScriptLoader's interface is language neutral.  Theoretically only the implementation need change.
<tt>nsGlobalWindow</tt> is the main implemention of <tt>nsIScriptGlobalObject</tt>, but XUL and XBL have a few.


=== nsDOMClassInfo ===
* <tt>nsIScriptGlobalObject</tt> remains a single object (ie, not per language).  It keeps an array of <tt>nsIScriptContext</tt> objects and <tt>void *</tt> globals for each supported languageMethods <tt>GetContext</tt> and <tt>GetGlobalJSObject</tt> have been replaced with <tt>GetLanguageContext</tt> and <tt>GetLanguageGlobal</tt>, both of which take the language ID as a param.  The places still tied to JS explicitly pass <tt>nsIProgrammingLanguage::JAVASCRIPT</tt> when necessary.
Some of this will need to be generalized for use by multiple languagesSpecifically, the "tables" of interfaces and access to the extended type information would be unmaintainable across multiple languages.


=== nsXULPrototypeScript ===
* New method <tt>EnsureScriptEnvironment(PRUint32 langID)</tt> to ensure the <tt>nsIScriptGlobalObject</tt> is initialized for a specific language.  This may be called at any time - whenever someone needs to run a script in a language.


Change JSObject *mJSObject -> void *mScriptObject, and add new nsIScriptContext reference.
* nsGlobalWindow still has some complicated JS specific code in place - most notably in <tt>SetNewDocument</tt>.  Some of these subtleties must also be done for other languages - but these have not yet been done in the hope of keeping the patch as small and "obviously correct" as possible.


=== Event listeners ===
* A new interface <tt>nsIScriptTimeoutHandler</tt> has been created.  This abstracts most of the JS specific code related to timeouts and intervals. The core logic in nsGlobalWindow relating to timeouts has not changed at all. The JS specific code that remains in nsGlobalWindow should probably be relocated into a JS specific file to help keep the size of nsGlobalWindow.cpp down.
http://lxr.mozilla.org/seamonkey/source/content/events/src/nsEventListenerManager.cpp#1160


Changes required:
=== XUL Fastload Cache ===
* AddScriptEventListener() needs a "language_id" passed in
* 'context' still comes from ScriptGlobal
* Use of "@mozilla.org/js/xpc/ContextStack;1" needs to be abstracted into the nsIScript interfaces.


=== Exceptions ===
* XUL cache now stores and returns both a <tt>void *</tt> and a <tt>PRUint32 langID</tt>.  As described in [[#new interface nsILanguageRuntime]], this language ID is enough to perform the necessary ownership management of objects in the cache.


Exceptions should be chained across languagesThis should just mean diligent use of nsIExceptionService?
* Serializing scripts is supported by first writing the language ID to the stream, then delegating to the (new) <tt>nsIScriptContext::Serialize()</tt> methodDeserialization then reads this language ID to determine the appropriate nsIScriptContext to delegate to.


== Identified list of things we will *not* do ==
* Note that fast-load is fragile in the face of errors; more work is needed to ensure things work for script languages that do not support fast-load. This is not currently a problem as Python does implement this functionality. This fragility did previously exist - it is just more open to failing when multi-languages are considered.
* We will make no attempt to have abstract the security interfaces - Python has no concept of "untrusted code". This means Python will be restricted to running from trusted XUL.
* Principals (obviously we must not change existing semantics, but Python will ignore them.)
* Allowing a language version to be specified.


=== nsDOMClassInfo ===


== Stuff Mark still needs to grok ==
nsDOMClassInfo provides 2 key functions:


* Still a little gray on the relationship between a JSContext, a "scope" and a "global".
* standard nsIClassInfo implementations for DOM.
** JSContext a DOM specific concept, so script_language -> C++ -> script_language preserves the state of the globals (correct?)
** What is in a "context" beyond the global object?


* WrapNative and what it really means to this
* Enhanced support for DOM objects which can not be expressed using nsIClassInfo.  These are the "scriptable helpers"


* What exactly does nsDOMClassInfo do??? How can we factor it?
The extra nsIClassInfo implementation is suitable for all languages. However, the scriptable helpers have lots of DOM namespace magic, and are very JS specific.  This functionality currently needs to be re-implemented for Python.


* nsBindingManager - very JS specific and not using nsIScript interfaces
Widgets implemented in XBL do not have any class info available.  This works in JavaScript as the widgets themselves are implemented by JS, and therefore all methods and properties exist as native JS properties.  Thus, JS does not use XPConnect to talk to XBL implemented widgets.  Python has currently worked around this by hardcoding mapping between a XUL tag name and a list of interfaces that should be implemented.  This should be addressed in XBL 1.5/2.0.


* Need to understand the desired 'undefined' semantics for the return value.  Python's builtin None is closer to a JS null, so may not be suitable for 'undefined'. However, a simple 'return' will return None.


* Timeouts look tricky.
=== Context Stack ===
 
* Events look tricky


== Random Notes ==
[MarkH - I've managed to completely ignore this for the time being]


Some notes about existing callers of certain interfaces.
Existing code that works directly with the nsIJSContextStack "@mozilla.org/js/xpc/ContextStack;1" service must be modified to be language agnostic.  These callers may be unaware of the language being used, or the set of language available.  Therefore, the nsIScriptGlobalObject interface will grow a way to generically push and pop contexts for *all* languages.  It will probably not be possible to explicitly push a context for only a single language, as that will muddy the semantics.
Exactly what this means is still TDB, but there are a few possibilities:
* We invent a new interface for each language to do its thing.
* We simple push nsIScriptContext objects directly on a stack - we push a context for every language known to us.


nsDOMParser:
If a language is initialized even after items are already on the context stack, only new items pushed will include a context item for that language.  Once the stack pops back past where a language has no entries, the language will not be able to run (but this should be impossible - there can be no stack entries for that language higher in the context stack, and attempting to start a new script in that language will simply re-push a context entry which will again include the language)


* Gets "native call context" to end up with nsIScriptContext - apparently all just to get the script URI nsDocShell
As mentioned above re nsIScriptContext, we may need to handle SetTerminationFunction functionality on this stack.
** http://lxr.mozilla.org/seamonkey/source/extensions/xmlextras/base/src/nsDOMParser.cpp#476
** Will need to know the language_id that should process the data from the stream
* Security related functions


nsXMLHttpRequest.cpp
Tricky: We need to interoperate with code that is not multi-language nor nsIScriptGlobalObject aware, and may not be for some time.  Eg:
* GetCurrentContext uses the JS ContextStack.
http://lxr.mozilla.org/seamonkey/source/extensions/pref/autoconfig/src/nsJSConfigTriggers.cpp#216
http://lxr.mozilla.org/seamonkey/source/extensions/webservices/security/src/nsWebScriptsAccess.cpp#767 - pushes a NULL context?


mozXMLTermUtils.cpp:
Generic "GetCallerDocShell" or similar will avoid some JS specifics - eg, http://lxr.mozilla.org/seamonkey/source/docshell/base/nsDocShell.cpp#6092
  * mozXMLTermUtils::ExecuteScript called nsIScriptContext::ExecuteScript -      but with NULL "void *" pointers. Needs to have nsIScriptContext passed?


nsScriptSecurityManager.cpp/nsSecurityManagerFactory.cpp:
Possible implementation strategy:
*Almost all functions convert a JSContext to an nsIScriptContext.  Most just use to GetGlobalObject - GetPrincipalAndFrame has JS assumptions
* nsSecurityNameSet::InitializeNameSet - Lots of JS specific code.


docshell/base/nsDocShell.cpp:
==== New interface - nsIDOMContextStackItem ====
1 use nsDocShell::CheckLoadingPermissions() - use of JF ContextStack to fetch nsIScriptContext - just to GetGlobalObject
An item on the context stack - stores one nsIScriptContext for every language initialized for this item.


embedding/components/windowwatcher/src/nsWWJSUtils.cpp
nsIDOMContextStackItem : nsISupports
* Converts JSContext to nsIScriptContext.  Mainly for GetGlobalObject, but nsIScriptGlobalObject *nsWWJSUtils::GetStaticScriptGlobal has JS deps.
{
  nsIScriptContext getLanguageContext(in PRInt32 langId);
  void setLanguageContext(in PRInt32 langId, in nsIScriptContext cx);
};


embedding/components/windowwatcher/src/nsWindowWatcher.cpp:
==== New interface - nsIDOMContextStack ====


     JSObject * nsWindowWatcher::GetWindowScriptObject
interface nsIDOMContextStack : nsISupports
        not used???
{
  readonly attribute PRInt32     count;
  nsIDOMContextStackItem      peek();
  nsIDOMContextStackItem      pop();
  void                                  push(in nsIDOMContextStackItem cx);


    nsWindowWatcher::AttachArguments
  /* what is a "safe context" anyway???
    AddSupportsTojsvals
  * - a context guaranteed to be available and usable.
        2038      rv = xpc->WrapNative(cx, ::JS_GetGlobalObject(cx), data,
  */
        2039                            *iid, getter_AddRefs(wrapper));
  nsIScriptContext getLanguageSafeContext(in PRInt32 langId);
    
    
  /* A helper for code that wants the most recent nsIDocShell on
  the context stack - any/all languages on the stack can provide it */
  nsIDocShell GetCallerDocShell()
};


content/base/src/nsContentUtils.cpp:
=== Exceptions ===
    Convert nsIScriptContext -> JS Context
content/base/src/nsDocument.cpp:
    Convert nsIScriptContext -> JS Context -> CanRunScripts
    (can CanRunScripts take an nsIScriptContext?)
 
nsRange:
    nsRange::CreateContextualFragment - seems to push/pop a JS Context?
 
content/base/src/nsScriptLoader.cpp:
 
        nsScriptLoader::ProcessScriptElement
            Does the actual loading of the stream.
        EvaluateScript calls nsIScriptContext->EvaluateScript - with most args
 
content/events/src/nsEventListenerManager.cpp:
 
    Quite JS specific
   
content/xbl/src/
nsXBLBinding
    ::JSSetPrototype for a new context?
nsXBLDocumentInfo:
  implementation of nsIScriptGlobalObject.
  JSObject *mJSObject;    // XXX JS language rabies bigotry badness
  mJSObject = ::JS_NewObject - abstraction?
nsXBLProtoImpl:
  Lots of JS Specific code.
  Fairly generic compile function: http://lxr.mozilla.org/seamonkey/source/content/xbl/src/nsXBLProtoImpl.cpp#192
 
content/xul:
nsXULElement
    event handlers remain JS specific
    serialization too
nsXULDocument:
    Calls ExecuteScript with mScriptGlobalObject->GetGlobalJSObject() as an arg
    case nsXULPrototypeNode::eType_Script: {
      else if (scriptproto->mJSObject) {
                    // An inline script
                    rv = ExecuteScript(scriptproto->mJSObject);
                    if (NS_FAILED(rv)) return rv;
                }
 
    XUL Script cache
 
dom/src/base/nsDOMClassInfo.cpp
  Lots of JS - dynamic DOM not exposed by XPCOM class info?
 
dom/src/base/nsGlobalWindow.cpp
    JS specific "scope" code
    nsIScriptContext *currentCX = nsJSUtils::GetDynamicScriptContext(cx);
    argv handling
    Creating a window - calls WindowWatcher::OpenWindowJS
   
dom/src/events/nsJSEventListener.cpp:
 
layout/generic/nsObjectFrame.cpp
 
xpfe/appshell/src/nsAppShellService.cpp


plugins/activex/embedding/crypto: ignoring for now.
Exceptions should be chained across languages.  This should just mean diligent use of nsIExceptionService?  This has not been addressed yet.

Latest revision as of 18:08, 8 June 2010

We care more about speed now. See bug 570738.

We want to change the grip JS has on the DOM and on XUL. We will do this in 2 steps:

This work is currently being done on a DOM_AGNOSTIC2_BRANCH cvs branch (note the 2 in the branch name!). The initial work on this, including a Python implementation is largely complete. This document attempts to capture the current state of this work, including any issues not yet addressed.

Description of changes - both already made and yet to be made

Overview

A #new interface nsILanguageRuntime will be implemented for each language. It is a singleton (JS will be manually instantiated, but all other languages will be services). nsDOMScriptObjectFactory will become the factory for these nsILanguageRuntimes, with the language runtime taking responsibility for creating the nsIScriptContext.

The existing nsIScriptContext interface will remain tied to a specific language. The void * params in its interface will remain. This means that a void * and a suitable nsIScriptContext must always be treated as a pair (ie, given just a void *, there is no way to determine an appropriate nsIScriptContext suitable for it. See #nsIScriptContext

nsIProgrammingLanguage constants will internally identify a language offering an efficient array-based implementation for multiple languages. The nsIDOMScriptObjectFactory will be able to convert language names to IDs and will be responsible for instantiating new language runtimes.

The existing nsIScriptGlobalObject interface will move towards a model where there is a global nsIScriptContext per language. GetGlobalJSObject and GetContext hav largely been replaced with GetLanguageGlobal and GetLanguageContext methods (hard-coding nsIProgrammingLanguage::JAVASCRIPT) where necessary. Thus, nsIScriptGlobalObject may have many nsIScriptContexts associated with it (one per supported and initialized language). The script global itself is responsible for preparing itself to work with a specific language, but will only do so via an explicit request to EnsureScriptEnvironment() for a language. See #nsIScriptGlobalObject and nsGlobalWindow

A new context stack may need to be invented - see #Context Stack

The special casing for js in nsDOMClassInfo will need a fair bit of work for each language - see #nsDOMClassInfo

Below are specific implementation notes:

Array and Variant object model changes

  • nsIArray to be used in place of jsval argc/argv used now. There is a new nsJSArgArray object that "wraps" a jsval *argv/int argc pair into an nsIArray - but also support a private interface for getting the original jsval based array. Thus, js->js calls do not convert elements in the array - (offering both performance and no conversion issues), but they are converted when nsIArray methods are directly used (eg, when another language sees the array).
  • Each of these nsIArray elements params are expected to hold either an nsIVariant or an nsISupportsPrimitive.
  • Result values from calling scripts are now nsIVariant. This is currently used only for the "return value" of an event handler, and only boolean and string result values are handled. If may be more efficient to convert this to use nsISupportsPrimitive (but xpconnect already provided nsIVariant converters).

new interface nsILanguageRuntime

This is a factory for nsIScriptContext objects and has methods for parsing "version strings" into a version integer specific to the language.

nsJSEnvironment implements this interface and becomes the JS factory (and renamed to nsJSRuntime). Public function for creating JSContext replaced with public function for the nsJSRuntime.

All memory management/object ownership related functions will exist on the language runtime. This is so a language object can be locked or unlocked without having an nsIScriptContent - all it needs is the integer language ID so it can fetch the nsILanguageRuntime to perform the operation. Currently these are defined in terms of the JS GC API (and hence ignored by Python), but this will change to a more language neutral technique.

nsIScriptContext

  • The ownership model of the void * objects returned from nsIScriptContext must be clarified and made more explicit. MarkH is working on this.
  • Existing JSObject replaced with void. JS implementation still returns a JSObject, but that implementation detail is hidden inside the script context itself.
  • Existing char *version replaced with PRUint32 version. New method on nsILanguageRuntime to convert a char * version string into the flags.
  • New ClearScope method - JS implementation does the ClearScope/ClearWatchpointsForObject/ClearRegExpStatistics dance.
  • As described above, nsIArray and nsIVariant used to make language args and result values agnostic..
  • CompileEventHandler now takes an array of arg names - this is because the onerror event takes 3 params. nsContentUtils::GetEventArgName() renamed to GetEventArgNames() with params changed accordingly, and returns 3 names for 'onerror'.
  • A new SetProperty method has been added, currently used only to set window.arguments. Note that BindCompiledEventHandler() changes make these 2 functions almost identical in concept, so these could possibly be merged. Alternatively, now we use nsIArray for window arguments, we could possibly add arguments as an XPCOM property on the DOM object itself, meaning SetProperty() could go away.
  • SetTerminationFunction needs thinking through - this does *not* seem to be a per-language thing, but is used only for JS GC, so that the script global is notified when the JS global object is collected. This needs more thinking through, or possibly just moved privately inside the JS implementation.
  • New method void *GetNativeGlobal() to return the "global object" used by nsIScriptGlobalWindow (previously stored in mJSObject) for this context. nsIScriptGlobalObject calls this method during language init to setup its environment.
  • New Serialize and Deserialize methods added with nsXULPrototypeScript delegating to these.

nsIScriptGlobalObject and nsGlobalWindow

nsGlobalWindow is the main implemention of nsIScriptGlobalObject, but XUL and XBL have a few.

  • nsIScriptGlobalObject remains a single object (ie, not per language). It keeps an array of nsIScriptContext objects and void * globals for each supported language. Methods GetContext and GetGlobalJSObject have been replaced with GetLanguageContext and GetLanguageGlobal, both of which take the language ID as a param. The places still tied to JS explicitly pass nsIProgrammingLanguage::JAVASCRIPT when necessary.
  • New method EnsureScriptEnvironment(PRUint32 langID) to ensure the nsIScriptGlobalObject is initialized for a specific language. This may be called at any time - whenever someone needs to run a script in a language.
  • nsGlobalWindow still has some complicated JS specific code in place - most notably in SetNewDocument. Some of these subtleties must also be done for other languages - but these have not yet been done in the hope of keeping the patch as small and "obviously correct" as possible.
  • A new interface nsIScriptTimeoutHandler has been created. This abstracts most of the JS specific code related to timeouts and intervals. The core logic in nsGlobalWindow relating to timeouts has not changed at all. The JS specific code that remains in nsGlobalWindow should probably be relocated into a JS specific file to help keep the size of nsGlobalWindow.cpp down.

XUL Fastload Cache

  • XUL cache now stores and returns both a void * and a PRUint32 langID. As described in #new interface nsILanguageRuntime, this language ID is enough to perform the necessary ownership management of objects in the cache.
  • Serializing scripts is supported by first writing the language ID to the stream, then delegating to the (new) nsIScriptContext::Serialize() method. Deserialization then reads this language ID to determine the appropriate nsIScriptContext to delegate to.
  • Note that fast-load is fragile in the face of errors; more work is needed to ensure things work for script languages that do not support fast-load. This is not currently a problem as Python does implement this functionality. This fragility did previously exist - it is just more open to failing when multi-languages are considered.

nsDOMClassInfo

nsDOMClassInfo provides 2 key functions:

  • standard nsIClassInfo implementations for DOM.
  • Enhanced support for DOM objects which can not be expressed using nsIClassInfo. These are the "scriptable helpers"

The extra nsIClassInfo implementation is suitable for all languages. However, the scriptable helpers have lots of DOM namespace magic, and are very JS specific. This functionality currently needs to be re-implemented for Python.

Widgets implemented in XBL do not have any class info available. This works in JavaScript as the widgets themselves are implemented by JS, and therefore all methods and properties exist as native JS properties. Thus, JS does not use XPConnect to talk to XBL implemented widgets. Python has currently worked around this by hardcoding mapping between a XUL tag name and a list of interfaces that should be implemented. This should be addressed in XBL 1.5/2.0.


Context Stack

[MarkH - I've managed to completely ignore this for the time being]

Existing code that works directly with the nsIJSContextStack "@mozilla.org/js/xpc/ContextStack;1" service must be modified to be language agnostic. These callers may be unaware of the language being used, or the set of language available. Therefore, the nsIScriptGlobalObject interface will grow a way to generically push and pop contexts for *all* languages. It will probably not be possible to explicitly push a context for only a single language, as that will muddy the semantics.

Exactly what this means is still TDB, but there are a few possibilities:

  • We invent a new interface for each language to do its thing.
  • We simple push nsIScriptContext objects directly on a stack - we push a context for every language known to us.

If a language is initialized even after items are already on the context stack, only new items pushed will include a context item for that language. Once the stack pops back past where a language has no entries, the language will not be able to run (but this should be impossible - there can be no stack entries for that language higher in the context stack, and attempting to start a new script in that language will simply re-push a context entry which will again include the language)

As mentioned above re nsIScriptContext, we may need to handle SetTerminationFunction functionality on this stack.

Tricky: We need to interoperate with code that is not multi-language nor nsIScriptGlobalObject aware, and may not be for some time. Eg: http://lxr.mozilla.org/seamonkey/source/extensions/pref/autoconfig/src/nsJSConfigTriggers.cpp#216 http://lxr.mozilla.org/seamonkey/source/extensions/webservices/security/src/nsWebScriptsAccess.cpp#767 - pushes a NULL context?

Generic "GetCallerDocShell" or similar will avoid some JS specifics - eg, http://lxr.mozilla.org/seamonkey/source/docshell/base/nsDocShell.cpp#6092

Possible implementation strategy:

New interface - nsIDOMContextStackItem

An item on the context stack - stores one nsIScriptContext for every language initialized for this item.

nsIDOMContextStackItem : nsISupports { 

 nsIScriptContext getLanguageContext(in PRInt32 langId);
 void setLanguageContext(in PRInt32 langId, in nsIScriptContext cx);

};

New interface - nsIDOMContextStack

interface nsIDOMContextStack : nsISupports { 

 readonly attribute PRInt32     count;
 nsIDOMContextStackItem      peek();
 nsIDOMContextStackItem      pop();
 void                                   push(in nsIDOMContextStackItem cx);

 /* what is a "safe context" anyway??? 
  * - a context guaranteed to be available and usable.
  */
 nsIScriptContext getLanguageSafeContext(in PRInt32 langId);
 
 /* A helper for code that wants the most recent nsIDocShell on
 the context stack - any/all languages on the stack can provide it */
 nsIDocShell GetCallerDocShell()

};

Exceptions

Exceptions should be chained across languages. This should just mean diligent use of nsIExceptionService? This has not been addressed yet.

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